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Journal articles on the topic 'Tyrophagus putrescentiae (Schrank)'

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Published: 4 June 2021
Last updated: 16 February 2022

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1

TAKAHASHI, Masakazu, and Yoshito WADA. "Insecticide susceptibility in Tyrophagus putrescentiae (Schrank, 1781)." Medical Entomology and Zoology 38, no. 3 (1987): 253–54. http://dx.doi.org/10.7601/mez.38.253.

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2

FLECHTMANN, CARLOS H. W., and JEAN ETIENNE. "New records of plant mites (Acari, Acaridae, Tetranychidae) from Guadeloupe and Marie Galante with descriptions of five new eriophyid species." Zootaxa 47, no. 1 (2002): 1. http://dx.doi.org/10.11646/zootaxa.47.1.1.

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Eight species are reported and described from Guadeloupe and Marie Galante: an acarid mite, Tyrophagus putrescentiae (Schrank), two spider mites, Mononychellus planki (McGregor) and Tetranychus desertorum ( Banks), and five new species of Eriophyidae, namely Cosella nudifemoralis, C. spinicauda, Ectomerus triquetrus, Acalitus simplex and Cenaca decorata.
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3

Oliveira, Charles Martins de, Denise Návia, and Marina Regina Frizzas. "First record of Tyrophagus putrescentiae (Schrank) (Acari: Acaridae) in soybean plants under no tillage in Minas Gerais, Brazil." Ciência Rural 37, no. 3 (2007): 876–77. http://dx.doi.org/10.1590/s0103-84782007000300043.

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Tyrophagus putrescentiae (Schrank) is a mite species of economic and medical-veterinary importance, usually found associated with stored products. Presence of this mite was observed in the stems of soybean [Glycine max (L.) Merr.] plants originated from a under non tillage commercial crop in 2003/2004, in the municipal district of Unaí, State of Minas Gerais, Brazil. This is the first record of T. putrescentiae occurring in soybean plants under field conditions in the world.
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4

SUNG, B. K., J. H. LIM, and H. S. LEE. "Food Protective and Color Alteration Effects of Acaricidal Aldehydes on Tyrophagus putrescentiae (Schrank)." Journal of Food Protection 69, no. 7 (2006): 1728–31. http://dx.doi.org/10.4315/0362-028x-69.7.1728.

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The activities of benzaldehyde isolated from Prunus persica seeds and of commercially available aldehydes against Tyrophagus putrescentiae (a stored-food mite) adults were examined and compared with those of the synthetic acaricides benzyl benzoate and N,N-diethyl-m-toluamide. On the basis of the 50% lethal dose (LD50), the compound most toxic to T. putrescentiae adults was salicylaldehyde (LD50 of 1.02 μg/cm2) followed by cinnamaldehyde (1.66 μg/cm2), benzaldehyde (4.23 μg/cm2), phthaldialdehyde (5.16 μg/cm2), benzyl benzoate (9.75 μg/cm2), and N,N-diethyl-m-toluamide (16.26 μg/cm2). Benzalde
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5

Dizlek, Hulya, Mehmet Karagoz, Farid Faraji, and Ibrahim Cakmak. "Mites in dried figs of Turkey: diversity, species composition and density." Systematic and Applied Acarology 24, no. 6 (2019): 992–97. http://dx.doi.org/10.11158/saa.24.6.4.

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This study was conducted to determine mite species in dried figs in Aydin, Turkey between August 2014 and November 2016. A total of 141 dried fig samples were taken from producers’ storage, commercial storages and fig processing factories in Buharkent, Germencik, Incirliova, Kocarli, Kosk, Kuyucak, Merkez, Nazilli, Sultanhisar and Yenipazar districts. In addition, 24 dried fig samples were kept in storage for 8 months and the changes in mite species composition and their densities in stored figs were determined. As a result, 8 mite species belonging to 3 orders and 5 families were identified f
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6

JEON, JU-HYUN, JUN-HWAN PARK, NAMHYUN CHUNG, and HOI-SEON LEE. "Active Monoterpene Ketones Isolated from Rosmarinus officinalis with Fumigant and Contact Action against Tyrophagus putrescentiae (Schrank)." Journal of Food Protection 77, no. 8 (2014): 1355–60. http://dx.doi.org/10.4315/0362-028x.jfp-14-087.

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The acaricidal activities of an active material derived from Rosmarinus officinalis oil and its relative monoterpene ketones were determined using fumigant and contact toxicity bioassays against Tyrophagus putrescentiae and were compared with that of a commercial acaricide (benzyl benzoate). The active component of R. officinalis oil, isolated by silica gel column chromatography and high-performance liquid chromatography, was identified as camphor, based on various spectroscopic analyses. In the fumigant toxicity bioassay, camphor (2.25 μg/cm3) was 5.58 times more active than benzyl benzoate (
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7

LEE, HOI-SEON. "Food Protective Effect of Acaricidal Components Isolated from Anise Seeds against the Stored Food Mite, Tyrophagus putrescentiae (Schrank)." Journal of Food Protection 68, no. 6 (2005): 1208–10. http://dx.doi.org/10.4315/0362-028x-68.6.1208.

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The acaricidal activity of anise seed–isolated anisaldehyde and commercially available components of anise seed was examined against Tyrophagus putrescentiae adults and compared with those of synthetic acaricides, benzyl benzoate, dibutyl phthalate, and N,N-diethyl-m-toluamide (DEET). On the basis of LD50 (50% lethal dose) values, the compound most toxic to T. putrescentiae adults was anisaldehyde (LD50, 0.96 μg/cm2), followed by benzyl benzoate (LD50, 11.3 μg/cm2), anethole (LD50, 12.3 μg/cm2), dibutyl phthalate (LD50, 13.3 μg/cm2), DEET (LD50, 13.5 μg/cm2), estragole (LD50, 17.4 μg/cm2), and
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8

Bakr, Anar, and Shady Selim. "Selective biorational treatments for managing the storage mites, Tyrophagus putrescentiae (Schrank) and Aleuroglyphus ovatus (Troupeau) under laboratory conditions." Systematic and Applied Acarology 24, no. 3 (2019): 337. http://dx.doi.org/10.11158/saa.24.3.1.

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Mites have lately emerged as economically important pests of stored products. Recently, addition of natural origin compounds individually or as a combination with predators have provided a considerable value for controlling these pests. In this study, the efficacy of the bacterium-derived pesticides, spinosad and spinetoram, and the combination of each of them with the predator Cheyletus malaccensis Oudemans was evaluated against two storage mite pests, Tyrophagus putrescentiae (Schrank) and Aleuroglyphus ovatus (Troupeau) under optimal abiotic conditions for pest development. After 21d, the t
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9

Su, Jie, An-Di Zhu, Guo-Dong Han, Fang Dong, Jing Chen, and Jian-Ping Zhang. "Re-adaptation from alternative prey to target prey increased predation of predator on target mite." Systematic and Applied Acarology 24, no. 3 (2019): 467. http://dx.doi.org/10.11158/saa.24.3.10.

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Neoseiulus bicaudus (Wainstein) is a natural enemy of spider mite and thrip and also a potential biocontrol agent for Tetranychus turkestani (Tetranychidae). Tyrophagus putrescentiae (Schrank) is an important alternative prey of N. bicaudus for mass rearing. We aimed to determine whether previous long-term feeding history, rearing on alternative prey versus target prey affected the performance of N. bicaudus. Therefore, the prey preference and functional response of predatory mites were compared between three strains: N. bicaudus fed on T. turkestani (TTS); N. bicaudus fed on T. putrescentiae
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10

Bakr, Anar Abd Allah. "Feeding deterrent effects of legume flours against two storage mites, Tyrophagus putrescentiae (Schrank) and Suidasia medanensis Oudemans (Acari:Acaridida)." Systematic and Applied Acarology 23, no. 2 (2018): 380. http://dx.doi.org/10.11158/saa.23.2.13.

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Whole legume flour and its fractions possess a potential in controlling insect pests. Information concerning the activity of various legume flours as bioacaricides against storage mites is rare. Therefore, two kinds of legume flours were obtained from common faba bean (Vicia faba L.) and pea (Pisum sativum L.) seeds to evaluate their effects on growth and development time of two species of storage mites, Tyrophagus putrescentiae (Schrank) and Suidasia medanensis Oudemans via feeding test. The diet was dusted with legume flours at seven concentrations (0, 0.01, 0.1, 0.25, 0.5, 0.75 and 1%). Aft
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11

Michalczyk-Wetula, Dominika, Monika Jakubowska, Magdalena Felska, Dariusz Skarżyński, Joanna Mąkol, and Przemysław M. Płonka. "Tyrophagus putrescentiae (Sarcoptiformes: Acaridae) in the in vitro cultures of slime molds (Mycetozoa): accident, contamination, or interaction?" Experimental and Applied Acarology 84, no. 2 (2021): 445–58. http://dx.doi.org/10.1007/s10493-021-00608-4.

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AbstractTyrophagus putrescentiae (Schrank), commonly known as the cereal mite, cheese mite, or ham mite, is a cosmopolitan species reported from various environments in the wild, including soil, plant material and vertebrate nests. It has also been recognized as a common pest of food storages, mycological collections as well as plant and invertebrate laboratory cultures. Laboratory observations indicate that T. putrescentiae feeds on a large range of dermatophytes, yeasts and molds. We have observed the interspecific relation between this mite and several species of true slime molds (Mycetozoa
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12

Mandal, Sumit, and Amlan Das. "Tyrophagus putrescentiae (Schrank) (Astigmata: Acaridae) as natural enemy for wood boring pest, Psiloptera fastuosa F. (Coleoptera: Buprestidae) in tropical tasar." ENTOMON 46, no. 1 (2021): 33–40. http://dx.doi.org/10.33307/entomon.v46i1.584.

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In tasar silkworm culture the stem-boring jewel beetle Psiloptera fastuosa Fabr. (Buprestidae: Coleoptera) is considered as a major pest of tasar plant (Terminalia arjuna, Combretaceae) cultivation. The grubs of P. fastuosa often damage the Arjuna stem by causing dieback. Tyrophagus putrescentiae Schrank (Acari: Acaridae) infested buprestid eggs up to 15% and caused egg mortality up to 9%. The mite predation on the buprestid beetle is reported for the first time. The mite seeps the newly-laid egg-fluids causing the egg mortality suggesting that tasar plant stem-boring pest (P. fastuosa) can be
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13

Zhang, Xue, Jasmine D. Hendrix, Yan L. Campbell, et al. "Biology and integrated pest management of Tyrophagus putrescentiae (Schrank) infesting dry cured hams." Journal of Stored Products Research 79 (December 2018): 16–28. http://dx.doi.org/10.1016/j.jspr.2018.08.001.

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14

Preisser, R. H., T. D. Anderson, F. Demares, J. R. Bloomquist, and D. E. Gerrard. "Acaricidal effects of fresh garlic juice on adult ham mite, Tyrophagus putrescentiae (Schrank)." Journal of Stored Products Research 79 (December 2018): 73–78. http://dx.doi.org/10.1016/j.jspr.2018.09.004.

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15

Bowman, C. E. "Could the acarid mite Tyrophagus putrescentiae (Schrank) be used as an environmental thermometer?" International Journal of Acarology 47, no. 2 (2021): 107–18. http://dx.doi.org/10.1080/01647954.2021.1877350.

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16

Ham, Eun Hye, Young Cheol Choi, Jun Seok Lee, and Jong Kyun Park. "Study on the Cold Storage Condition of Hypoaspis aculeifer(Canestrini)(Acari: Gamasida) and Tyrophagus putrescentiae(Schrank)(Acari: Acaridae)." Korean Journal of Sericultural Science 50, no. 2 (2012): 109–11. http://dx.doi.org/10.7852/jses.2012.50.2.109.

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17

Duhan, Komal, Rachna Gulati, and Arvind Malik. "Damage potential of Tyrophagus putrescentiae Schrank (Acari: Acaridae) in Oyster (Pluerotus sajor caju) Mushrooms." Emergent Life Sciences Research 4, no. 1 (2018): 40–44. http://dx.doi.org/10.31783/elsr.2018.414044.

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18

Sánchez-Ramos, Ismael, and Pedro Castañera. "Acaricidal activity of natural monoterpenes on Tyrophagus putrescentiae (Schrank), a mite of stored food." Journal of Stored Products Research 37, no. 1 (2000): 93–101. http://dx.doi.org/10.1016/s0022-474x(00)00012-6.

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19

Amoah, Barbara, M. Wes Schilling, and Thomas W. Phillips. "Physical Factors Influencing Orientation of Tyrophagus putrescentiae (Schrank) (Sarcoptiformes: Acaridae) to Food-Baited Traps." Journal of Insect Behavior 30, no. 5 (2017): 544–62. http://dx.doi.org/10.1007/s10905-017-9639-8.

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20

Mostafa, Adel, E. Yassin, Y. Eisa, and Noura Abou El-Enien. "Effect of infestation with acaridid mite, Tyrophagus putrescentiae (Schrank) on germination rate of maize grains." Egyptian Academic Journal of Biological Sciences. A, Entomology 6, no. 3 (2013): 81–85. http://dx.doi.org/10.21608/eajbsa.2013.13243.

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21

Chauhan, Rinkikumari, and Abhishek Shukla. "Effect of non-edible oils on the development of mite, Tyrophagus putrescentiae Schrank stored groundnut." INTERNATIONAL JOURNAL OF PLANT PROTECTION 12, no. 2 (2019): 138–46. http://dx.doi.org/10.15740/has/ijpp/12.2/138-146.

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22

Choi, Kwang Shik, Jae Seok Park, Seung-Yeol Lee, Do-Un Hwang, Hee-Young Jung, and Shoji Ohga. "Morphological and Phylogenetic Characterization of Tyrophagus putrescentiae Schrank (Sarcoptiformes : Acaridae) from Hypsizygus marmoreus in Korea." Journal of the Faculty of Agriculture, Kyushu University 62, no. 1 (2017): 9–13. http://dx.doi.org/10.5109/1798135.

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23

Granich, Juliana, Tamara Bianca Horn, Júlia Horn Körbes, Maicon Toldi, Guilherme Liberato Da Silva, and Noeli Juarez Ferla. "Development of Cheyletus malaccensis (Acari: Cheyletidae) feeding on mite species found in commercial poultry systems: Megninia ginglymura (Acari: Analgidae) and Tyrophagus putrescentiae (Acari: Acaridae)." Systematic and Applied Acarology 21, no. 10 (2016): 1604. http://dx.doi.org/10.11158/saa.21.12.2.

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Intensive egg production affects the welfare of confined laying hens, which increases the risk of epidemics. Ectoparasitic hematophagous mites and saprophagous feather mites cause low productivity and decreased egg quality. This study aimed to compare the biology of Cheyletus malaccensis (Oudemans) (Prostigmata: Cheyletidae) feeding on the prey Megninia ginglymura (Mégnin) (Astigmata: Analgidae) and Tyrophagus putrescentiae (Schrank) (Astigmata: Acaridae) in order to support the potential use of this predator in biological control strategies in the poultry industry. The study started with 30 e
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24

de Assis, Carla P. O., Manoel G. C. Gondim, Herbert A. A. de Siqueira, and Cláudio A. G. da Câmara. "Toxicity of essential oils from plants towards Tyrophagus putrescentiae (Schrank) and Suidasia pontifica Oudemans (Acari: Astigmata)." Journal of Stored Products Research 47, no. 4 (2011): 311–15. http://dx.doi.org/10.1016/j.jspr.2011.04.005.

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25

Gulati, Rachna. "Potential of garlic as grain protectants against Tyrophagus putrescentiae Schrank and Suidasia nesbitti Hughes in wheat." Systematic and Applied Acarology 12, no. 1 (2007): 19. http://dx.doi.org/10.11158/saa.12.1.3.

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26

HASHIMOTO, Tomoyuki, Naoya TAKADA, and Naoki MOTOYAMA. "ATPase activities of acarid mite, Tyrophagus putrescentiae (Schrank) (Acari : Acaridae), and their inhibition by several acaricides." Medical Entomology and Zoology 52, no. 3 (2001): 195–200. http://dx.doi.org/10.7601/mez.52.195.

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27

Manu, Naomi, Mark Wesley Schilling, and Thomas Wesley Phillips. "Natural and Synthetic Repellents for Pest Management of the Storage Mite Tyrophagus putrescentiae (Schrank) (Sarcoptiformes: Acaridae)." Insects 12, no. 8 (2021): 711. http://dx.doi.org/10.3390/insects12080711.

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The fumigant pesticide methyl bromide (MB) was used for stored products, but it is now banned for most uses in many countries as an ozone-depleting substance. MB was the only pesticide used to manage the ham mite, Tyrophagus putrescentiae, which is the most significant pest of dry cured hams. Effective alternatives to MB are needed to develop integrated pest management (IPM) programs for this pest. This study evaluated plant essential oils and food-safe compounds as repellents to directly protect hams from infestation. Experiments to assess the repellency to orientation, oviposition, and popul
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28

Asali Fayaz, Bahman, Mohammad Khanjani, and Hassan Rahmani. "TYROPHAGUS PUTRESCENTIAE (SCHRANK) (ACARI: ACARIDAE) FROM WESTERN IRAN WITH A KEY TO IRANIAN SPECIES OF THE GENUS." Acarina 24, no. 1 (2016): 61–76. http://dx.doi.org/10.21684/0132-8077.2016.24.1.61.76.

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Chauhan, Rinkikumari, and Abhishek Shukla. "Effect of non-edible oils on population buildup of acarid mite, Tyrophagus putrescentiae Schrank on stored groundnut." INTERNATIONAL JOURNAL OF PLANT PROTECTION 12, no. 2 (2019): 98–104. http://dx.doi.org/10.15740/has/ijpp/12.2/98-104.

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30

Canevari, Glauco da Cruz, Fernanda Rezende, Rafael Braga da Silva, et al. "Potential of Tyrophagus putrescentiae (Schrank) (Astigmata: Acaridae) for the Biological Control of Lasioderma serricorne (F.) (Coleoptera: Anobiidae)." Brazilian Archives of Biology and Technology 55, no. 2 (2012): 299–303. http://dx.doi.org/10.1590/s1516-89132012000200017.

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31

Qu, S. X., H. P. Li, L. Ma, et al. "Effects of different edible mushroom hosts on the development, reproduction and bacterial community of Tyrophagus putrescentiae (Schrank)." Journal of Stored Products Research 61 (March 2015): 70–75. http://dx.doi.org/10.1016/j.jspr.2014.12.003.

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32

Amoah, Barbara, David Hagstrum, Bhadriraju Subramanyam, James F. Campbell, M. Wes Schilling, and Thomas W. Phillips. "Sampling methods to detect and estimate populations of Tyrophagus putrescentiae (Schrank) (Sarcoptiformes: Acaridae) infesting dry-cured hams." Journal of Stored Products Research 73 (September 2017): 98–108. http://dx.doi.org/10.1016/j.jspr.2017.07.004.

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33

KOJIMA, Takeshi, Masayuki SAKUMA, Masao FUKUI, and Yasumasa KUWAHARA. "Spatial orientation of the mould mite, Tyrophagus putrescentiae (Schrank) (Acarina: Acaridae), in the computer-programmed olfactory field." Journal of the Acarological Society of Japan 12, no. 2 (2003): 93–102. http://dx.doi.org/10.2300/acari.12.93.

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34

Gulati, Rachna, and Sudha Mathur. "Effect of Eucalyptus and Mentha leaves and Curcuma rhizomes on Tyrophagus putrescentiae (Schrank) (Acarina: Acaridae) in wheat." Experimental and Applied Acarology 19, no. 9 (1995): 511–18. http://dx.doi.org/10.1007/bf00052919.

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35

Goddard, J. "A Crack-and-Crevice Application Assay for Selected Insecticides to Control the Ham Mite, Tyrophagus putrescentiae (Schrank)." Journal of Entomological Science 52, no. 3 (2017): 304–7. http://dx.doi.org/10.18474/jes17-02.1.

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36

Geeraerts, Jacqueline. "Etude par le test en croix de I'attraction exercée par divers champignons sur Tyrophagus putrescentiae (Schrank, 1781)." Mycoses 18, no. 9 (2009): 385–92. http://dx.doi.org/10.1111/j.1439-0507.1975.tb03622.x.

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Asgari, Faeze, Hamid Reza Sarraf Moayeri, Aurang Kavousi, Annie Enkegaard, and Hsin Chi. "Demography and Mass Rearing of Amblyseius swirskii (Acari: Phytoseiidae) Fed on Two Species of Stored-Product Mites and Their Mixture." Journal of Economic Entomology 113, no. 6 (2020): 2604–12. http://dx.doi.org/10.1093/jee/toaa187.

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Abstract Amblyseius swirskii (Athias-Henriot) is one of the most important biological control agents and has been used in many countries. In this study, the suitability of Carpoglyphus lactis L. (Acari: Carpoglyphidae), Tyrophagus putrescentiae (Schrank), and their mixture for rearing A. swirskii was evaluated by using the two-sex life table. When reared on C. lactis, the durations of egg, deutonymph, total preadult, total preoviposition period, and adult male longevity of A. swirskii (1.95, 1.17, 6.13, 6.30, and 10.09 d, respectively) were significantly shorter than those reared on the mixed
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Chauhan, Rinkikumari, and Abhishek Shukla. "Influence of non-edible oil on oviposition preference and hatchability of acarid mite, Tyrophagus putrescentiae Schrank on Groundnut." INTERNATIONAL JOURNAL OF PLANT PROTECTION 12, no. 2 (2019): 152–59. http://dx.doi.org/10.15740/has/ijpp/12.2/152-159.

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39

Abbar, Salehe, Özgür Sağlam, M. Wes Schilling, and Thomas W. Phillips. "Efficacy of combining sulfuryl fluoride fumigation with heat to control the ham mite, Tyrophagus putrescentiae (Schrank) (Sarcoptiformes: Acaridae)." Journal of Stored Products Research 76 (March 2018): 7–13. http://dx.doi.org/10.1016/j.jspr.2017.11.008.

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40

Ahmed, A. K., A. M. Kamal, N. M. E. Mowafy, and E. E. Hassan. "Storage Mite Infestation of Dry-Stored Food Products and Its Relation to Human Intestinal Acariasis in the City of Minia, Egypt." Journal of Medical Entomology 57, no. 2 (2019): 329–35. http://dx.doi.org/10.1093/jme/tjz213.

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Abstract Initial data on the prevalence of storage mites in dry-stored food products and estimates of the presence of mites in human stool in the city of Minia, Egypt are provided. In total, 847 samples were collected randomly from houses and retail stores between March 2017 and February 2018. In addition, 1,000 human stool samples were collected for the detection of the presence of mites. Mites were extracted from 285 of 840 (33.9%) samples, and mite contamination was found to be most prevalent in wheat flour (73.3%). In total, 11 mite species belonging to six families were identified, with t
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41

Hendrix, J. D., X. Zhang, M. Byron, et al. "Impact of Relative Humidity and Net Treatments on Tyrophagus Putrescentiae (Schrank) Infestations and Mold Growth on Dry Cured Ham." Meat and Muscle Biology 1, no. 3 (2017): 105. http://dx.doi.org/10.22175/rmc2017.100.

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42

Smrž, J., J. Svobodová, and V. Catská. "Synergetic participation of Tyrophagus putrescentiae (Schrank) (Acari; Acaridida) and its associated bacteria on the destruction of some soil micromycetes." Journal of Applied Entomology 111, no. 1-5 (1991): 206–10. http://dx.doi.org/10.1111/j.1439-0418.1991.tb00312.x.

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Abbar, Salehe, M. W. Schilling, R. Jeff Whitworth, and Thomas W. Phillips. "Efficacy of selected pesticides against Tyrophagus putrescentiae (Schrank): influences of applied concentration, application substrate, and residual activity over time." Journal of Pest Science 90, no. 1 (2016): 379–87. http://dx.doi.org/10.1007/s10340-016-0766-3.

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44

Papadopoulou, Sm Ch. "Tyrophagus putrescentiae (Schrank) (Astigmata: Acaridae) as a new predator of Lasioderma serricorne (F.) (Coleoptera: Anobiidae) in tobacco stores in Greece." Journal of Stored Products Research 42, no. 3 (2006): 391–94. http://dx.doi.org/10.1016/j.jspr.2005.06.004.

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Kavallieratos, Nickolas G., Christos G. Athanassiou, Maria C. Boukouvala, and Christos I. Rumbos. "Acaricidal effect of three zeolite formulations on different life stages of Tyrophagus putrescentiae (Schrank) and Acarus siro L. (Sarcoptiformes: Acaridae)." Journal of Stored Products Research 78 (September 2018): 39–44. http://dx.doi.org/10.1016/j.jspr.2018.05.008.

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Franzolin, Marcia R., Walderez Gambale, Raul G. Cuero, and Benedito Correa. "Interaction between toxigenic Aspergillus flavus Link and mites (Tyrophagus putrescentiae Schrank) on maize grains: effects on fungal growth and aflatoxin production." Journal of Stored Products Research 35, no. 3 (1999): 215–24. http://dx.doi.org/10.1016/s0022-474x(99)00006-5.

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Su, Jie, Min Liu, Zhen-Shi Fu, An-Di Zhu, and Jian Ping Zhang. "Effects of alternative and natural prey on body size, locomotion and dispersal of Neoseiulus bicaudus (Acari: Phytoseiidae)." Systematic and Applied Acarology 24, no. 9 (2019): 1579–91. http://dx.doi.org/10.11158/saa.24.9.1.

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Prey are very important for the mass rearing of natural enemies and can affect the efficiency and quality of natural enemy products. Locomotion is important in dispersal of predatory mites on plants, and such activity is affected by body size and prey availability. The study evaluates the effects of prey (alternative prey: Tyrophagus putrescentiae Schrank and natural prey: Tetranychus turkestani Ugarov & Nikolskii) on the body size, locomotion and dispersal of the predatory mite Neoseiulus bicaudus Wainstein. When fed the alternative prey, the body size and locomotion of N. bicaudus were s
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Park, Jihye, Md Munir Mostafiz, Hwal-Su Hwang, Duck-Oung Jung, and Kyeong-Yeoll Lee. "Comparing the Life Table and Population Projection of Gaeolaelaps aculeifer and Stratiolaelaps scimitus (Acari: Laelapidae) Based on the Age-Stage, Two-Sex Life Table Theory." Agronomy 11, no. 6 (2021): 1062. http://dx.doi.org/10.3390/agronomy11061062.

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Predatory soil-dwelling mites, Gaeolaelaps aculeifer (Canestrini) and Stratiolaelaps scimitus (Womersley) (Mesostigmata: Laelapidae), are essential biocontrol agents of small soil arthropod pests. To understand the population characteristics of these two predatory mites, we investigated their development, survival, and fecundity under laboratory conditions. We used Tyrophagus putrescentiae (Schrank) as a food source and analyzed the data using the age-stage, two-sex life table. The duration from egg to adult for G. aculeifer was longer than that for S. scimitus, but larval duration was similar
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Yassin, E., Enas Kassem, and Rania Mahmoud. "Effect of Food Kinds on Developmental Stages and Fecundity of the Astigmatid Mites, Tyrophagus putrescentiae (Schrank) and Rhizoglyphus robini Claparede (Astigmata: Acaridae)." Journal of Plant Protection and Pathology 9, no. 10 (2018): 633–37. http://dx.doi.org/10.21608/jppp.2018.43899.

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Li, Ya Ying, Yan Zhang, Qin Hu, et al. "Effect of bran moisture content and initial population density on mass production of Tyrophagus putrescentiae (Schrank) (Acari: Acaridae)." Systematic and Applied Acarology 20, no. 5 (2015): 497. http://dx.doi.org/10.11158/saa.20.5.6.

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